CN104379325A

CN104379325A - Method for producing semi-finished product or component comprising metal carrier and hardenable coating with fibre-reinforced plastic

Info

Publication number: CN104379325A
Application number: CN201380029826.4A
Authority: CN
Inventors: 弗兰兹·安德勒施; 卡罗拉·艾塞尔; 伯恩哈特·施特劳斯; 克里斯蒂安·瓦尔施
Original assignee: Voestalpine Stahl GmbH
Current assignee: Voestalpine Stahl GmbH
Priority date: 2012-04-13
Filing date: 2013-04-15
Publication date: 2015-02-25
Anticipated expiration: 2033-04-15
Also published as: CN104379325B; US20150298399A1; JP6198020B2; EP2650108A1; KR101981832B1; EP2836354A1; US9566745B2; JP2015520027A; WO2013153229A1; KR20150003301A; EP2836354B1

Abstract

The invention relates to a method for producing a semi-finished product or component (2), in which a hardenable coating (6, 17) with fibre-reinforced plastic is applied to a metal carrier (3), particularly a metal sheet (4), and the coated metal carrier (3) is formed, particularly deep-drawn or bent, in a subsequent step to produce a semi-finished product or component (2). According to the invention, for an improved and cost-effective method, the metal carrier (3) is coated at most only in certain regions and is only subjected to the forming when the coating thereof (6, 17) has hardened to produce at least a block-resistant surface (12), the coated metal carrier (3) being formed such that the plastic changes in shape follow forming radii (21) and are produced substantially, preferably exclusively, in the coating-free regions (15) of the metal carrier.

Description

For the manufacture of comprising metallic carrier and the semi-finished product of curable coating or the method for component with fibre-reinforced synthetic material

Technical field

The present invention relates to a kind of method for the manufacture of semi-finished product or component, in the method, the curable coating with fibre-reinforced synthetic material is applied to metallic carrier especially on plate, and in a subsequent step, by through the metallic carrier distortion of coating, especially deep draw or bend to semi-finished product or component.

Background technology

By prior art known composite material (DE19956394B4), it has multiple metal level stacked up and down, they utilize fibre-reinforced unidirectional pre-immersion material layer on whole to apply respectively, and prepreg is solidified into section bar after composite material distortion.Unfortunately, before composite material obtains its final shape by its distortion, the premature setting of these class methods to prepreg is more responsive.This especially can be confirmed in following, that is, strained composite material reduces form accuracy, and has damaged the carbon fiber (CFK prepreg) of fibre-reinforced synthetic material (FVK) or pre-preg together with ground.Therefore, one repeatably method can not be guaranteed in like fashion.In addition, performing the method using uncured prepreg is costly comparatively speaking.In addition, the synthetic material that this kind of composite material relative fiber strengthens proposes higher materials demand.The semi-finished product of low cost or component do not manufacture by such method.

In addition, for the manufacture of fibre-reinforced semi-finished product or component it is generally known that, first steel plate is deformed, and is equipped with the FVK part of solidification in a subsequent step by halves or utilizes it to apply.The method step be separated from each other, the namely shaping of metallic carrier and the shaping of FVK part, last connection (such as utilizing bolt (DE102009009112A1)) together with them performs comparatively speaking costly, and require semi-finished product with high costs or component in addition, especially the method needs higher automation to expend.

Summary of the invention

Therefore task of the present invention is, based on previous described prior art, not only will simplify the manufacture method of semi-finished product for strengthening or component, but also will carry out durable design, therefore also will obtain the high repeatability of the method.In addition, the method should be applicable to automated method process.

The present invention realizes proposed task as follows, namely, metallic carrier is regionally applied at the most, and only have when the coating of metallic carrier forms at least one antisticking surperficial under its solidification, just stand to be out of shape, wherein, metallic carrier through coating is out of shape as follows, that is, its change in shape along with the plasticity of radius of deformation substantially, preferably only formed in the uncoated region of metallic carrier.

If metallic carrier only has just stand distortion when its coating forms at least one antisticking surperficial under curing of coatings, so the method just can the more resistance to land used of inevitable curing reaction of FVK coating relatively build, this is because inherently allow the curing reaction of coating in the method.Hinge structure, also too strictly need not pay close attention to the storage time of metallic carrier according to the present invention, therefore must consider that polymeric matrix is owing to exceeding the performance loss of processing time section.Thus, also can realize eliminating stress in procedure, especially because coating and distortion can irrelevantly realize by method step each other in time, this be exactly favourable for deep draw or bending metals carrier in order to it is shaped.The state of the antisticking on the surface of coating equally also can guarantee that thus, high repeatability and the automation fairly simple comparatively speaking of the method can become possibility through the metallic carrier of coating and being separated completely of instrument after a deformation.Especially, in addition, the feature according to method of the present invention is, metallic carrier is regionally apply at the most in its at least one carrier side, therefore substantially to obtain the deformability of the plasticity of metallic carrier.In addition, when metallic carrier is out of shape as follows, that is, its change in shape along with the plasticity of radius of deformation is formed substantially in its uncoated region, so just can realize higher degree of deformation.These uncoated carrier zones can produce the change in shape of plasticity without detriment to FVK coating as far as possible.When the change in shape of plasticity occurs over just in these uncoated regions, this is just higher.Even therefore the profile (threshold of such as motor vehicle or longeron) of high request can be accurately incorporated in metallic carrier by shape.In addition, land although anti-stick however but and solidify by halves or be the deformability that partially cured FVK coating even can allow certain intrinsic plasticity at the most, and therefore active influence is produced to the deformation characteristic of metallic carrier, even trouble-freely can realize narrow short radius thus.Meanwhile, the feature of carrier zones through coating is extra high intensity level, and metallic carrier between deformation phases and also after a deformation can mechanically stabilisation.According to the present invention, therefore the change in shape ability of the plasticity of height can combine with high mechanical strength value, and can obtain a kind of manufacture code fairly simple comparatively speaking for the preferred steel plate of fibre-reinforced metallic carrier simultaneously.

Apparently, metallic carrier can by there is iron material, aluminum or magnesium material or analog or the plate of alloy that is made up of them form.In general be mentioned, fibre-reinforced synthetic material (FVK) can have the thermoplasticity or the heat cured synthetic material matrix that combine with inorganic or organic fortifying fibre (as such as glass, basalt, carbon or the aramid fiber as continuous fiber, long fibre or short fiber) or can be made up of it.When use can to fibre-reinforced synthetic material be used as matrix, the intermediate layer of chemical crosslinking time, can attachment be improved.In addition, be in general mentioned, antisticking is understood to that the surface of coating is no longer viscosity.When the surface of coating be such as deformed under stress instrument be pressed to another on the surface time, this also can be this situation.In other words: curable coating before distortion at least by partially cured and be no longer viscosity.

So the feature according to method of the present invention is especially also, carbon fiber reinforced synthetic material (CFK) is applied on metallic carrier as the fibre-reinforced synthetic material (FVK) with especially heat cured matrix.

When applying the carbon fiber of pre-preg, can provide low cost and remain the semifinished or finished goods of high strength.Therefore optimised as requested and the semi-finished product of high strength or finished product can be manufactured when relatively improving its weight smaller.The fiber (such as glass fibre, aramid fiber) of other pre-preg can be susceptible to, but be applied on steel plate, that there is heat cured matrix carbon fiber and be proved to be when when acceptable manufacturing cost to be particularly advantageous in accessible intensity level for the structural elements of motor vehicle especially threshold or longeron.

If the fibre-reinforced synthetic material with the intermediate layer of chemical crosslinking is applied on metallic carrier, so just partially cured fibre-reinforced synthetic material can be applied to limited solid state comparatively speaking, and therefore improve the repeatability of the method.In addition, therefore attachment can be improved, especially when this intermediate layer is used as matrix can to fibre-reinforced synthetic material.

If will have long stapled fibre-reinforced synthetic material (FVK) is applied on metallic carrier, so just can comparatively speaking than the coating performing metallic carrier more quickly.Therefore, manufacturing cost can be reduced due to the shorter production time.This type of applying of long fibre coating is thinkable is by means of extrusion molding, pultrusion, spray coating or template coating.

As long stapled alternative, when the fabric of fibre-reinforced synthetic material (FVK) or non-woven being applied on metallic carrier with the shape of cutting, then also promptly coating can be performed.In addition, such matrix with the leave a blank portion corresponding to uncoated carrier zones is utilized can to realize the continuous print method of the semifinished or finished goods for the manufacture of low cost.

Can be applied on metallic carrier by fabric or non-woven or with utilizing the pre-preg of synthetic material matrix, or utilize synthetic material matrix impregnates after being applied on metallic carrier.For the automation of manufacture method, this feature be especially to utilize synthetic material matrix impregnates, for lay to the fabric on metallic carrier.

If increase addendum and carry out coating being applied in pretreated situation on the metallic carrier of metal ground and/or organically precoating may utilize, the danger of the Joint failure of the material so between metallic carrier and coating sealed (kraftschl ü ssig) obviously will reduce when being out of shape.Therefore repeatability and its parameter of the method can be improved.In addition, utilize this type of pretreatment can provide resistance to water, chemical substance and climatic effect, and also provide the anticorrosive property improved extraly.

If multiply cloth or non-woven textural lower stacked for the especially multidirectional layer of fibre-reinforced synthetic material (FVK), so just obviously can improve the mechanical strength of semifinished or finished goods.

In order to widen the region of antisticking and in order to avoid the possible adhesion at warp tool place, separate layer can be applied in coating before distortion.Such as, for such separate layer, be characterised in that the paper through coating, such as, cure paper.

If by curable coating without pressure ground pregelatinized and being pressed in a subsequent step on metallic carrier, this coating is applied on metallic carrier, the discharge of synthetic material can be reduced for fibre-reinforced reason, and this synthetic material therefore can be avoided to push forward uncontrollably in the bending area of metallic carrier.By the higher viscosity obtained in the process of pregelatinized, the discharge of synthetic material can be reduced relatively consumingly.Therefore, the damage of fibre-reinforced synthetic material in the process of the distortion of metallic carrier need not be considered.In addition, the coating so without pressure ground pregelatinized can not have the attachment characteristic reduced, and this just can realize can by the semi-finished product of mechanical load or component.

Particularly advantageously, also may be used for according to method of the present invention the structural elements manufacturing carrying, wherein, its feature is especially also threshold for motor vehicle or longeron.

Accompanying drawing explanation

Such as illustrate in detail in the accompanying drawings according to method of the present invention.Wherein:

Fig. 1 illustrates procedure, and the method process has the fibre-reinforced synthetic material (FVK) be laid on metallic carrier,

Fig. 2 illustrates the procedure with metallic carrier, and this metallic carrier has the fibre-reinforced synthetic material (FVK) of applying, and

Fig. 3 illustrates the cross sectional view of the interruption of the component according to Fig. 1 and 2.

Detailed description of the invention

According to the procedure 1 for the manufacture of component 2 shown according to Fig. 1, in a first step, the curable coating 6 with fibre-reinforced synthetic material (FVK) is applied to the metallic carrier 3 separated from the volume 4 be made up of steel plate 5.Metallic carrier 3 is in advance perhaps also cleaned or by Chemical Pretreatment on the side that this is to be coated, but does not explain in detail this.Be provided with manipulator 7 to apply coating 6, it receives the blanking 8 of manipulator 9.In order to this object, manipulator 9 carries out cutting according to the region area to be coated of metallic carrier 3 to utilizing the fabric 10 of synthetic material matrix pre-preg.Metallic carrier 3 through coating stands partially cured by means of dried or cured device 11 subsequently, and coating 6 forms the surface 12 of at least one antisticking accordingly.Thus, metallic carrier 3 also can be laid to stacking 13 easily, and then is such as temporarily stored or prepares further transmission.But can therefore realize in particular, the metallic carrier 3 through coating can be deformed into component 2 in following step, this is because the coating 6 of metallic carrier forms the surface 12 of at least one antisticking in its solidification.Therefore, the metallic carrier 3 through coating be incorporated in deep drawing tool 14 and be out of shape.Because be regionally apply on its one of them metallic carrier side (as this is known by Fig. 1), so the deformability of the higher plasticity of metallic carrier 3 also can be guaranteed at the most to metallic carrier 3.Therefore, it is possible to realize higher degree of deformation without problems, as this can be such as necessary when threshold or the longeron of motor vehicle.

As seen equally in FIG, the position of to be born elastic deformation at metallic carrier 3 by its deep draw is all provided with uncoated region 15.But, also can have other uncoated region as requested on metallic carrier 3.

In order to be different from the method 1 according to Fig. 1, there is according to the method 16 of Fig. 2 another type coating 17 be applied on metallic carrier 3.Resin 18 and solidfied material 19 carry out mixing with the preferred long fibre of ratio given in advance and fiber 20 and are coated onto on metallic carrier 3.And then, as realized the solidification carrying out antisticking by means of dried or cured device 11 pairs of coatings 17 in the case of figure 1.Then metallic carrier 3 through coating can be laid to stacking 13 again, or also can stand deep draw by means of deep drawing tool 14 immediately, and this explains in detail.

Can see according to Fig. 3, metallic carrier 3 has uncoated region 15, and the change in shape of the plasticity of metallic carrier 3 is stood in uncoated region when being out of shape, this change in shape is along with radius of deformation 12, especially bending radius.Therefore, ensure that the deformability of the higher plasticity of the metallic carrier 3 through coating.In addition, metallic carrier also has metal and/or organic protective finish 22, such as zinc layers.In addition, be provided with between coating 6 and protective finish 22 and increase addendum 23.Coating 6 or 7 is also applied with separate layer 24.Advantageously, method according to the present invention may be used for optimizing the mechanical property in the collision performance in compression or bending property.

Exemplarily contrast by uncoated with through the mechanical property of the hood-shaped section bar of coating in table 1.

Form 1

For different loads selection test configuration below:

For quasistatic axial compression: have about 50% of the surface that FVK strengthens;

Bend for 3: have about 15% of the surface that FVK strengthens;

Quasistatic axial compression perform when the forming speed of 30mm/min until 60% shaping.3 crooked tests perform the range of 250mm when the forming speed of 30mm/min.

Although partly apply hood-shaped shaped piece, the hood-shaped shaped piece of loading lower relative uncoated can still manifest obvious improvement, thus therefore need not consider the restriction when accessible degree of deformation.

Steel plate relatively conventional in table 2 compares half-finished intensity of the plane formula with different FVK coating.FVK coating had the surface of at least one antisticking before extension test or crooked test.

Form 2

Being solidificated between 20 DEG C and 130 DEG C of FVK coating carries out 120 minutes to 500 minutes.Preferably, when the non-woven of pre-preg, between 90 DEG C and 130 DEG C, carry out 90 minutes to 180 minutes, and when the non-woven of rear dipping and in the long stapled situation of use, carried out at least 480 minutes between 20 DEG C and 60 DEG C.

In this example, the ratio of metallic carrier thickness Relative layer thickness has from 1:2 until the scope of 1:0.4 is proved to be favourable.The steel plate thickness of corresponding metal carrier material or plate thickness also can change, the present invention particularly with metallic carrier thickness from 0.6mm to 5mm, be feature the scope especially from 1mm to 2.5mm.

Generally speaking therefore point out, can by strength enhancing 10% to 20%, and surprisingly have relatively thin at 0.2mm to 3mm, the FVK layer in the scope of especially 0.4mm to 2mm coating layer thickness is also like this.Therefore, definitely can the gross weight that such as threshold or longeron realize in the scope exceeding 10% be saved.This just advantageously causes vehicle body gross weight little, and therefore gross vehicle load is little, and this is reflected in lower fuel consumption equally.

Claims

1. the method for the manufacture of semi-finished product or component (2), in the process, the curable coating (6 of fibre-reinforced synthetic material will be had, 17) metallic carrier (3) is applied to, particularly on plate (4), and in a subsequent step by metallic carrier (3) distortion through coating, particularly deep draw or bend to semi-finished product or component (2), it is characterized in that, described metallic carrier (3) is regionally applied at the most, and only have the coating (6 when described metallic carrier, 17) when forming surface (12) of at least one antisticking in its solidification, just stand distortion, wherein, the described metallic carrier (3) through coating is out of shape as follows, namely, its change in shape along with the plasticity of radius of deformation (21) substantially, formed in preferably only in the uncoated region (15) of described metallic carrier.

2. method according to claim 1, is characterized in that, is applied on described metallic carrier (3) by carbon fiber reinforced synthetic material as the fibre-reinforced synthetic material with particularly reinforcedathermoset matrices.

3. method according to claim 2, is characterized in that, applies the carbon fiber of pre-preg.

4. the method according to claim 1,2 or 3, is characterized in that, is applied on described metallic carrier (3) by the fibre-reinforced synthetic material with the intermediate layer of chemical crosslinking.

5. method according to any one of claim 1 to 4, is characterized in that, will have long stapled fibre-reinforced synthetic material and be applied on described metallic carrier (3).

6. method according to any one of claim 1 to 5, is characterized in that, the fabric of described fibre-reinforced synthetic material or non-woven is applied on described metallic carrier (3) with the shape of cutting (8).

7. method according to claim 6, it is characterized in that, by described fabric or non-woven or be applied on described metallic carrier (3) with utilizing the pre-preg of synthetic material matrix, or utilize described synthetic material matrix impregnates after being applied to described metallic carrier (3) and being upper.

8. method according to any one of claim 1 to 7, it is characterized in that, described coating (6,17) is applied on the metallic carrier (3) of metal ground and/or organically precoating may utilize to increase under addendum carries out pretreated situation.

9. method according to any one of claim 1 to 8, is characterized in that, multiply cloth or non-woven stacked up and down for the particularly multidirectional Rotating fields of fibre-reinforced synthetic material.

10. method according to any one of claim 1 to 9, is characterized in that, is applied to by separate layer in described coating (6,17) before described distortion.

11. methods according to any one of claim 1 to 10, is characterized in that, described metallic carrier (3), particularly steel plate (4) have 0.6mm to 5mm, particularly the plate thickness of 1mm to 2.5mm.

12. methods according to any one of claim 1 to 11, it is characterized in that, described coating (6,17) has 0.2mm to 3mm, the particularly thickness of 0.4mm to 2mm.

13. methods according to any one of claim 1 to 12, it is characterized in that, by described curable coating (6,17) without pressure ground pregelatinized, and be pressed in a subsequent step on described metallic carrier (3), to be applied on described metallic carrier (3).

The application of 14. structural elements utilizing method according to any one of claim 1 to 13 to carry out the carrying of maker motor-car particularly threshold or longeron.